From 5c4c71489999abf6833636754caf7a4907bd284c Mon Sep 17 00:00:00 2001 From: Carlisle Wishard Date: Tue, 6 Dec 2022 15:56:18 -0500 Subject: [PATCH] renamed key word argument --- examples/Fragmentation/swiftest_fragmentation.py | 6 +++--- 1 file changed, 3 insertions(+), 3 deletions(-) diff --git a/examples/Fragmentation/swiftest_fragmentation.py b/examples/Fragmentation/swiftest_fragmentation.py index de4e9ba2c..067c53710 100644 --- a/examples/Fragmentation/swiftest_fragmentation.py +++ b/examples/Fragmentation/swiftest_fragmentation.py @@ -54,7 +54,7 @@ from numpy.random import default_rng # Initialize the simulation object as a variable with arguments. -sim_disruption = swiftest.Simulation(simdir="disruption", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_file_format="XVEL", init_cond_format="XV") +sim_disruption = swiftest.Simulation(simdir="disruption", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_format="XVEL", init_cond_format="XV") # Add the Sun using the JPL Horizons Database. sim_disruption.add_solar_system_body(["Sun"]) # Add a user-defined target body. @@ -67,7 +67,7 @@ sim_disruption.run() # Do the same as above for the hit and run case. -sim_hitandrun = swiftest.Simulation(simdir="hitandrun", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_file_format="XVEL", init_cond_format="XV") +sim_hitandrun = swiftest.Simulation(simdir="hitandrun", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_format="XVEL", init_cond_format="XV") sim_hitandrun.add_solar_system_body(["Sun"]) sim_hitandrun.add_body(name="Target", rh=[[1.0, -4.2e-05, 0.0]], vh=[[0.0, 6.28, 0.0]], Gmass=1e-7, radius=7e-6, rhill=9e-4, Ip=[[0.4, 0.4, 0.4]], rot=[[0.0, 0.0, 6.0e4]]) sim_hitandrun.add_body(name="Projectile", rh=[[1.0, 4.2e-05, 0.0]], vh=[[-1.5, -6.28, 0.0]], Gmass=7e-10, radius=3.25e-6, rhill=4e-4, Ip=[[0.4, 0.4, 0.4]], rot=[[0.0, 0.0, 1.0e5]]) @@ -75,7 +75,7 @@ sim_hitandrun.run() # Do the same as above for the super-catastrophic disruption case. -sim_supercat = swiftest.Simulation(simdir="supercat", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_file_format="XVEL", init_cond_format="XV") +sim_supercat = swiftest.Simulation(simdir="supercat", tstart=0.0, tstop=1.0e-5, dt=1.0e-8, istep_out=1.0, fragmentation=True, minimum_fragment_gmass=1.0e-11, gmtiny=1.0e-11, output_format="XVEL", init_cond_format="XV") sim_supercat.add_solar_system_body(["Sun"]) sim_supercat.add_body(name="Target", rh=[[1.0, -4.2e-05, 0.0]], vh=[[0.0, 6.28, 0.0]], Gmass=1e-7, radius=7e-6, rhill=9e-4, Ip=[[0.4, 0.4, 0.4]], rot=[[0.0, 0.0, -6.0e4]]) sim_supercat.add_body(name="Projectile", rh=[[1.0, 4.2e-05, 0.0]], vh=[[1.0, -6.28, 0.0]], Gmass=1e-8, radius=3.25e-6, rhill=4e-4, Ip=[[0.4, 0.4, 0.4]], rot=[[0.0, 0.0, 1.0e5]])