def test12(self): print("Testing adding and removing particles from stellar evolution code...") particles = Particles(3) particles.mass = 1.0 | units.MSun instance = MOSSE() instance.initialize_code() instance.commit_parameters() self.assertEqual(len(instance.particles), 0) # before creation instance.particles.add_particles(particles[:-1]) instance.commit_particles() instance.evolve_model(1.0 | units.Myr) self.assertEqual(len(instance.particles), 2) # before remove self.assertAlmostEqual(instance.particles.age, 1.0 | units.Myr) instance.particles.remove_particle(particles[0]) self.assertEqual(len(instance.particles), 1) instance.evolve_model(2.0 | units.Myr) self.assertAlmostEqual(instance.particles[0].age, 2.0 | units.Myr) instance.particles.add_particles(particles[::2]) self.assertEqual(len(instance.particles), 3) # it's back... self.assertAlmostEqual(instance.particles[0].age, 2.0 | units.Myr) self.assertAlmostEqual(instance.particles[1].age, 0.0 | units.Myr) self.assertAlmostEqual(instance.particles[2].age, 0.0 | units.Myr) # ... and rejuvenated. instance.evolve_model(3.0 | units.Myr) # The young stars keep their age offset from the old star self.assertAlmostEqual(instance.particles.age, [3.0, 1.0, 1.0] | units.Myr) instance.evolve_model(4.0 | units.Myr) self.assertAlmostEqual(instance.particles.age, [4.0, 2.0, 2.0] | units.Myr) instance.stop()
def test6(self): print("Test whether a set of stars evolves synchronously...") # Create an array of stars with a range in stellar mass masses = [.5, 1., 2., 5., 10., 30.] | units.MSun number_of_stars = len(masses) stars = Particles(number_of_stars) stars.mass = masses # Initialize stellar evolution code instance = MOSSE() instance.commit_parameters() instance.particles.add_particles(stars) instance.commit_particles() from_code_to_model = instance.particles.new_channel_to(stars) from_code_to_model.copy() instance.evolve_model(end_time = 125 | units.Myr) from_code_to_model.copy() end_types = ( "deeply or fully convective low mass MS star", "Main Sequence star", "Main Sequence star", "Carbon/Oxygen White Dwarf", "Neutron Star", "Black Hole", ) for i in range(number_of_stars): self.assertAlmostEqual(stars[i].age, 125.0 | units.Myr) self.assertTrue(stars[i].mass <= masses[i]) self.assertEqual(str(stars[i].stellar_type), end_types[i]) instance.stop()
def test12(self): print "Testing adding and removing particles from stellar evolution code..." particles = Particles(3) particles.mass = 1.0 | units.MSun instance = MOSSE() instance.initialize_code() instance.commit_parameters() self.assertEquals(len(instance.particles), 0) # before creation instance.particles.add_particles(particles[:-1]) instance.commit_particles() instance.evolve_model(1.0 | units.Myr) self.assertEquals(len(instance.particles), 2) # before remove self.assertAlmostEqual(instance.particles.age, 1.0 | units.Myr) instance.particles.remove_particle(particles[0]) self.assertEquals(len(instance.particles), 1) instance.evolve_model(2.0 | units.Myr) self.assertAlmostEqual(instance.particles[0].age, 2.0 | units.Myr) instance.particles.add_particles(particles[::2]) self.assertEquals(len(instance.particles), 3) # it's back... self.assertAlmostEqual(instance.particles[0].age, 2.0 | units.Myr) self.assertAlmostEqual(instance.particles[1].age, 0.0 | units.Myr) self.assertAlmostEqual(instance.particles[2].age, 0.0 | units.Myr) # ... and rejuvenated. instance.evolve_model(3.0 | units.Myr) # The young stars keep their age offset from the old star self.assertAlmostEqual(instance.particles.age, [3.0, 1.0, 1.0] | units.Myr) instance.evolve_model(4.0 | units.Myr) self.assertAlmostEqual(instance.particles.age, [4.0, 2.0, 2.0] | units.Myr) instance.stop()
def test6(self): print "Test whether a set of stars evolves synchronously..." # Create an array of stars with a range in stellar mass masses = [.5, 1., 2., 5., 10., 30.] | units.MSun number_of_stars = len(masses) stars = Particles(number_of_stars) stars.mass = masses # Initialize stellar evolution code instance = MOSSE() instance.commit_parameters() instance.particles.add_particles(stars) instance.commit_particles() from_code_to_model = instance.particles.new_channel_to(stars) from_code_to_model.copy() instance.evolve_model(end_time = 125 | units.Myr) from_code_to_model.copy() end_types = ( "deeply or fully convective low mass MS star", "Main Sequence star", "Main Sequence star", "Carbon/Oxygen White Dwarf", "Neutron Star", "Black Hole", ) for i in range(number_of_stars): self.assertAlmostEquals(stars[i].age, 125.0 | units.Myr) self.assertTrue(stars[i].mass <= masses[i]) self.assertEquals(str(stars[i].stellar_type), end_types[i]) instance.stop()
def test7(self): print("Test: evolve particles one at a time.") print("Used to be problematic, since initial_mass of idle particle is set to zero.") stars = Particles(2) stars.mass = 1.0 | units.MSun for star in stars: print(star) stellar_evolution = MOSSE() stellar_evolution.commit_parameters() stellar_evolution.particles.add_particles(star.as_set()) stellar_evolution.commit_particles() from_stellar_evolution_to_model = stellar_evolution.particles.new_channel_to(star.as_set()) stellar_evolution.evolve_model() from_stellar_evolution_to_model.copy() stellar_evolution.stop() self.assertEqual(stars[0].initial_mass, stars[1].initial_mass) self.assertEqual(stars[0].luminosity, stars[1].luminosity) self.assertEqual(stars[0].age, stars[1].age) print("Solved: SSE_muse_interface.f sets initial_mass to mass when necessary.")
def test7(self): print "Test: evolve particles one at a time." print "Used to be problematic, since initial_mass of idle particle is set to zero." stars = Particles(2) stars.mass = 1.0 | units.MSun for star in stars: print star stellar_evolution = MOSSE() stellar_evolution.commit_parameters() stellar_evolution.particles.add_particles(star.as_set()) stellar_evolution.commit_particles() from_stellar_evolution_to_model = stellar_evolution.particles.new_channel_to(star.as_set()) stellar_evolution.evolve_model() from_stellar_evolution_to_model.copy() stellar_evolution.stop() self.assertEquals(stars[0].initial_mass, stars[1].initial_mass) self.assertEquals(stars[0].luminosity, stars[1].luminosity) self.assertEquals(stars[0].age, stars[1].age) print "Solved: SSE_muse_interface.f sets initial_mass to mass when necessary."