class compass.ocean.tests.tides.init.interpolate_wave_drag.InterpolateWaveDrag(test_case, mesh)[source]

A step for interpolating the topographic wave drag data onto the MPAS-Ocean mesh

  • plot (bool) – Whether to produce plots of interpolated atmospheric data

  • rinv_file (str) – Name of file for rinv data

  • wave_drag_file (str) – Output file with interpolated rinv data

  • grid_file (str) – Name of mesh file

__init__(test_case, mesh)[source]

Create the step



__init__(test_case, mesh)

Create the step

add_input_file([filename, target, database, ...])

Add an input file to the step (but not necessarily to the MPAS model).


make a link to the model executable and add it to the inputs

add_namelist_file(package, namelist[, ...])

Add a file with updates to namelist options to the step to be parsed when generating a complete namelist file if and when the step gets set up.

add_namelist_options(options[, out_name, mode])

Add the namelist replacements to be parsed when generating a namelist file if and when the step gets set up.


Add the output file that must be produced by this step and may be made available as an input to steps, perhaps in other test cases.

add_streams_file(package, streams[, ...])

Add a streams file to the step to be parsed when generating a complete streams file if and when the step gets set up.


Constrain cpus_per_task and ntasks based on the number of cores available to this step

interpolate_data_to_grid(grid_file, data_file)

Interpolate time snaps of gridded data field to MPAS mesh

plot_interp_data(orig_data, interp_data)

Plot original gridded data and interpolated fields


Process the inputs to and outputs from a step added with compass.Step.add_input_file() and compass.Step.add_output_file().


Run this step of the test case


Update attributes of the step at runtime before calling the run() method.

set_resources([cpus_per_task, ...])

Update the resources for the subtask.


Set up the test case in the work directory, including downloading any dependencies.

update_namelist_at_runtime(options[, out_name])

Update an existing namelist file with additional options.


Modify the namelist so the number of PIO tasks and the stride between them consistent with the number of nodes and cores (one PIO task per node).

update_streams_at_runtime(package, streams, ...)

Update the streams files during the run phase of this step using the given template and replacements.


Write data to netCDF file