# ------------------  INPUTS TO MAIN PROGRAM  -------------------
max_step = 100
stop_time = 0.2

#amr.restart = chk00040

# PROBLEM SIZE & GEOMETRY
geometry.is_periodic =  0 0
geometry.coord_sys   =  0       # 0 => cart
geometry.prob_lo     =  0    0
geometry.prob_hi     =  4    1

amr.n_cell           = 1024  256
amr.max_grid_size    = 256

# >>>>>>>>>>>>>  BC FLAGS <<<<<<<<<<<<<<<<
# 0 = Interior           3 = Symmetry
# 1 = Inflow             4 = SlipWall
# 2 = Outflow            5 = NoSlipWall
# >>>>>>>>>>>>>  BC FLAGS <<<<<<<<<<<<<<<<
castro.lo_bc       =  2   2
castro.hi_bc       =  2   2

# WHICH PHYSICS
castro.do_hydro = 1
castro.do_react = 0
castro.ppm_type = 1
castro.riemann_solver = 2

# TIME STEP CONTROL

castro.cfl            = 0.9     # cfl number for hyperbolic system
castro.init_shrink    = 0.01    # scale back initial timestep
castro.change_max     = 1.1     # maximum increase in dt over successive steps

# DIAGNOSTICS & VERBOSITY
castro.sum_interval   = 1       # timesteps between computing mass
castro.v              = 1       # verbosity in Castro.cpp
amr.v                 = 1        # verbosity in Amr.cpp
#amr.grid_log         = grdlog  # name of grid logging file

# REFINEMENT / REGRIDDING
amr.max_level       = 0       # maximum level number allowed
amr.ref_ratio       = 2 2 2 2 # refinement ratio
amr.regrid_int      = 2       # how often to regrid
amr.blocking_factor = 8      # block factor in grid generation

# CHECKPOINT FILES
amr.check_file      = chk    # root name of checkpoint file
amr.check_int       = 100    # number of timesteps between checkpoints

# PLOTFILES
amr.plot_file       = plt    # root name of plotfile
amr.plot_int        = 100    # number of timesteps between plotfiles

amr.derive_plot_vars=ALL
amr.derive_plot_vars=pressure

# PROBLEM PARAMETERS
problem.p_l = 116.5
problem.u_l = 7.1449625
problem.v_l = -4.12515
problem.rho_l = 8.0

problem.p_r = 1
problem.u_r = 0
problem.v_r = 0
problem.rho_r = 1.4

# EOS
eos.eos_assume_neutral = 1
eos.eos_gamma = 1.4e0