gempy_viewer.plot_3d

gempy_viewer.plot_3d(model: GeoModel, plotter_type: str = 'basic', active_scalar_field: str | None = None, ve: float | None = None, topography_scalar_type: TopographyDataType = TopographyDataType.GEOMAP, kwargs_pyvista_bounds: dict | None = None, kwargs_plot_structured_grid: dict | None = None, kwargs_plot_topography: dict | None = None, kwargs_plot_data: dict | None = None, kwargs_plotter: dict | None = None, kwargs_plot_surfaces: dict | None = None, image: bool = False, show: bool = True, transformed_data: bool = False, **kwargs) GemPyToVista[source]

Plot 3-D geomodel.

Parameters:
  • model (GeoModel) – Geomodel object with solutions.

  • plotter_type (str) – Type of plotter to use. Defaults to ‘basic’.

  • active_scalar_field (Optional[str]) – Active scalar field for the plot.

  • ve (Optional[float]) – Vertical exaggeration.

  • topography_scalar_type (TopographyDataType) – Type of topography scalar data. Defaults to TopographyDataType.GEOMAP.

  • kwargs_pyvista_bounds (Optional[dict]) – Additional keyword arguments for PyVista bounds.

  • kwargs_plot_structured_grid (Optional[dict]) – Additional keyword arguments for plotting the structured grid.

  • kwargs_plot_topography (Optional[dict]) – Additional keyword arguments for plotting the topography.

  • kwargs_plot_data (Optional[dict]) – Additional keyword arguments for plotting data.

  • kwargs_plotter (Optional[dict]) – Additional keyword arguments for the plotter.

  • kwargs_plot_surfaces (Optional[dict]) – Additional keyword arguments for plotting surfaces.

  • image (bool) – If True, saves the plot as an image. Defaults to False.

  • show (bool) – If True, displays the plot. Defaults to True.

  • transformed_data (bool) – If True, uses transformed data for plotting. Defaults to False.

  • **kwargs – Additional keyword arguments.

Returns:

Object for 3D plotting in GemPy.

Return type:

GemPyToVista

Examples using gempy_viewer.plot_3d

GemPy 3: gravity inversion for normal fault model

GemPy 3: gravity inversion for normal fault model