meteotsunami-r1.py File Reference

Go to the source code of this file.

Namespaces
namespace	meteotsunami-r1

Functions
float	meteotsunami-r1.manning_coefficient (float H, float z0=0.003)
	Compute the Manning coefficient n based on the Chezy formulation:

Variables
int	meteotsunami-r1.L = 300e3
list	meteotsunami-r1.physical_offset = [-39870.0, 0.0]
list	meteotsunami-r1.physical_size = [379700.0, L / 3]
	meteotsunami-r1.square_side = max(physical_size)
list	meteotsunami-r1.offset
list	meteotsunami-r1.size = [square_side, square_side]
int	meteotsunami-r1.H = 50
float	meteotsunami-r1.manning_coefficient_value = manning_coefficient(H)
str	meteotsunami-r1.initial_conditions
str	meteotsunami-r1.boundary_conditions
str	meteotsunami-r1.is_physically_admissible
	meteotsunami-r1.parser = exahype2.ArgumentParser()
	meteotsunami-r1.min_depth
	meteotsunami-r1.end_time
	meteotsunami-r1.degrees_of_freedom
	meteotsunami-r1.args = parser.parse_args()
dict	meteotsunami-r1.constants
float	meteotsunami-r1.max_h = 1.1 * min(physical_size) / (3.0**args.min_depth)
float	meteotsunami-r1.min_h = max_h * 3.0 ** (-args.amr_levels)
int	meteotsunami-r1.dg_order = args.degrees_of_freedom - 1
	meteotsunami-r1.aderdg_solver
	meteotsunami-r1.flux
	meteotsunami-r1.ncp
	meteotsunami-r1.max_eigenvalue
	meteotsunami-r1.riemann_solver
	meteotsunami-r1.source_term
	meteotsunami-r1.fv_solver
	meteotsunami-r1.limiter_solver
	meteotsunami-r1.project
float	meteotsunami-r1.time_in_between_plots = 0.0
	meteotsunami-r1.dimensions
	meteotsunami-r1.min_end_time
	meteotsunami-r1.max_end_time
	meteotsunami-r1.first_plot_time_stamp
	meteotsunami-r1.periodic_BC
	meteotsunami-r1.mode
	meteotsunami-r1.const_val
	meteotsunami-r1.const_type
	meteotsunami-r1.make
	meteotsunami-r1.True
	meteotsunami-r1.make_clean_first
	meteotsunami-r1.throw_away_data_after_build