compass.ocean.tests.global_ocean.mesh.qu.IcosMeshFromConfigStep¶

class compass.ocean.tests.global_ocean.mesh.qu.IcosMeshFromConfigStep(test_case, name='base_mesh', subdir=None, cell_width=None, subdivisions=None)[source]¶

A step for creating quasi-uniform meshes at a resolution given by a config option

__init__(test_case, name='base_mesh', subdir=None, cell_width=None, subdivisions=None)¶

Create a new step

Parameters:

test_case (compass.testcase.TestCase) – The test case this step belongs to
name (str, optional) – the name of the step
subdir ({str, None}, optional) – the subdirectory for the step
cell_width (float, optional) – The approximate cell width in km of the mesh if constant resolution
subdivisions (int, optional) – The number of subdivisions of the icosahedral mesh to perform

Methods

`__init__`(test_case[, name, subdir, ...])	Create a new step
`add_input_file`([filename, target, database, ...])	Add an input file to the step (but not necessarily to the MPAS model).
`add_model_as_input`()	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_output_file`(filename)	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.
`build_subdivisions_cell_width_lat_lon`()	A function for creating cell width array for this mesh on a regular latitude-longitude grid.
`constrain_resources`(available_resources)	Constrain `cpus_per_task` and `ntasks` based on the number of cores available to this step
`get_cell_width`(subdivisions)	Get the approximate cell width for an icosahedral mesh given either a number of subdivisions of the icosahedron.
`get_subdivisions`(cell_width)	Find the number of subdivisions of an icosahedron to achieve a resolution as close as possible to `cell_width`.
`make_jigsaw_mesh`(subdivisions)	Make the JIGSAW mesh.
`process_inputs_and_outputs`()	Process the inputs to and outputs from a step added with `compass.Step.add_input_file()` and `compass.Step.add_output_file()`.
`run`()	Run this step of the test case
`runtime_setup`()	Update attributes of the step at runtime before calling the `run()` method.
`save_and_plot_cell_width`(lon, lat, cell_width)	Save the cell width field on a lon/lat grid to `self.cell_width_filename` and plot
`set_resources`([cpus_per_task, ...])	Update the resources for the subtask.
`setup`()	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.
`update_namelist_pio`([out_name])	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.