pyvista.PolyDataFilters.decimate#

PolyDataFilters.decimate( target_reduction, volume_preservation=False, attribute_error=False, scalars=True, vectors=True, normals=False, tcoords=True, tensors=True, scalars_weight=0.1, vectors_weight=0.1, normals_weight=0.1, tcoords_weight=0.1, tensors_weight=0.1, inplace=False, progress_bar=False, )[source]#

Reduce the number of triangles in a triangular mesh using vtkQuadricDecimation.

Parameters:

target_reductionfloat: Fraction of the original mesh to remove. If target_reduction is set to 0.9, this filter will try to reduce the data set to 10% of its original size and will remove 90% of the input triangles.
volume_preservationbool, default: False: Decide whether to activate volume preservation which greatly reduces errors in triangle normal direction. If False, volume preservation is disabled and if attribute_error is active, these errors can be large.
attribute_errorbool, default: False: Decide whether to include data attributes in the error metric. If False, then only geometric error is used to control the decimation. If True, the following flags are used to specify which attributes are to be included in the error calculation.
scalarsbool, default: True: If attribute errors are to be included in the metric (i.e., attribute_error is True), then these flags control which attributes are to be included in the error calculation.
vectorsbool, default: True: See scalars parameter.
normalsbool, default: False: See scalars parameter.
tcoordsbool, default: True: See scalars parameter.
tensorsbool, default: True: See scalars parameter.
scalars_weightfloat, default: 0.1: The scaling weight contribution of the scalar attribute. These values are used to weight the contribution of the attributes towards the error metric.
vectors_weightfloat, default: 0.1: See scalars_weight parameter.
normals_weightfloat, default: 0.1: See scalars_weight parameter.
tcoords_weightfloat, default: 0.1: See scalars_weight parameter.
tensors_weightfloat, default: 0.1: See scalars_weight parameter.
inplacebool, default: False: Whether to update the mesh in-place.
progress_barbool, default: False: Display a progress bar to indicate progress.

Returns:

pyvista.PolyData: Decimated mesh.

Notes

If you encounter a segmentation fault or other error, consider using pyvista.PolyDataFilters.clean() to remove any invalid cells before using this filter.

Examples

Decimate a sphere. First plot the sphere.

>>> import pyvista as pv
>>> sphere = pv.Sphere(phi_resolution=60, theta_resolution=60)
>>> sphere.plot(show_edges=True, line_width=2)

Static Scene

../../../_images/pyvista-PolyDataFilters-decimate-1_00_00.png

Interactive Scene

Now decimate it by 75% and plot it.

>>> decimated = sphere.decimate(0.75)
>>> decimated.plot(show_edges=True, line_width=2)

Static Scene

../../../_images/pyvista-PolyDataFilters-decimate-1_01_00.png

Interactive Scene

See Decimation for more examples using this filter.