Note
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Multiple Slider Widgets#
Use a class based callback to track multiple slider widgets for updating a single mesh.
In this example we simply change a few parameters for the
pyvista.Sphere()
method, but this could easily be applied to any
mesh-generating/altering code.
import pyvista as pv
class MyCustomRoutine:
def __init__(self, mesh) -> None:
self.output = mesh # Expected PyVista mesh type
# default parameters
self.kwargs = {
"radius": 0.5,
"theta_resolution": 30,
"phi_resolution": 30,
}
def __call__(self, param, value):
self.kwargs[param] = value
self.update()
def update(self) -> None:
# This is where you call your simulation
result = pv.Sphere(**self.kwargs)
self.output.copy_from(result)
starting_mesh = pv.Sphere()
engine = MyCustomRoutine(starting_mesh)
p = pv.Plotter()
p.add_mesh(starting_mesh, show_edges=True)
p.add_slider_widget(
callback=lambda value: engine("phi_resolution", int(value)),
rng=[3, 60],
value=30,
title="Phi Resolution",
pointa=(0.025, 0.1),
pointb=(0.31, 0.1),
style="modern",
)
p.add_slider_widget(
callback=lambda value: engine("theta_resolution", int(value)),
rng=[3, 60],
value=30,
title="Theta Resolution",
pointa=(0.35, 0.1),
pointb=(0.64, 0.1),
style="modern",
)
p.add_slider_widget(
callback=lambda value: engine("radius", value),
rng=[0.1, 1.5],
value=0.5,
title="Radius",
pointa=(0.67, 0.1),
pointb=(0.98, 0.1),
style="modern",
)
p.show()
And here is a screen capture of a user interacting with this
Total running time of the script: (0 minutes 0.237 seconds)